Method of producing dichlorothiolphosphates

专利摘要:
Certain S-alkyl, -cycloalkyl, -aralkyl, and -aryl phosphorodichloridothiolates are prepared by reacting a sulfenyl chloride, which can be prepared in situ, with phosphorus trichloride and a carboxylic acid or water.
公开号:SU718012A3
申请号:SU762389510
申请日:1976-08-20
公开日:1980-02-25
发明作者:О.Байер Хорст；С.Херт Вильям
申请人:Ром Энд Хаас Компани (Фирма)；
IPC主号:

专利说明:


This invention relates to the chemistry of organophosphorus compounds. A new method for the preparation of dichlorothiol phosphates of the general formula is proposed. .
In C. RS-P
C1
where R is lower alkyl normal or isostrate,
which are used as intermediates for the preparation of insecticides.
A known method for producing dichlorothiol phosphates, for example, S-ethnyl dichlorophosphate or 5-butyldichlorophosphate, by reacting phosphorus trichloride with the corresponding alkylsulfenyl chloride in an excess of liquid sulfur dioxide at minus 50 ° C. The yield of the target products is 50-75% 1.
However, to accomplish this method one has to use low temperatures and an excess of toxic sulfur dioxide, in addition, the yield of the target products is not high enough.
The aim of the invention is to increase the yield of dichlorothiol phosphates.
The proposed method for producing dichlorothiol phosphates is that the product of the interaction of phosphorus trichloride with alkylsulfenyl chloride is treated with a carboxylic acid or water in an organic solvent medium at minus 15 - plus 30 ° C.
As a carboxylic acid, it is desirable to use acetic or propionic acid, as aromatic solvent. corner; levodorod, aromatic or aliphatic halogen-substituted hydrocarbon.
A distinctive feature of the method is that the product of the interaction of phosphorus trichloride with alkylsulfenyl chloride is treated with carboxylic acid or water and the process is carried out in an organic solvent medium at minus 15 - plus 30 ° C. The proposed method for producing dichlorothiol phosphates makes it possible to increase the yield of chain products up to 98%.
Exotic alkylsulfenyl chloride is obtained by reacting mercaptan or disulfide 3.7 with a chlorinating agent and, without isolating it in its pure form, is injected into the reaction with trichloride CT phosphorus and carboxylic acid or water. Chlorine or sulphuryl chloride is used as scavenging agents. Example I. Preparation of S - "- propyl dichlortiate phosphate. To a ne {76.7 g (0.51 mol) solution of n-1g1p o1glshlysulfide in 200 g of dry toluene, 137.3 g (1.0 mol) of trifluoric phosphorus at. 60, lg (1.0 mol of glacial acetic acid are introduced into this solution for 7 minutes, the solution is stirred for 11 minutes at 2 ° C. Then 67.5 g (0.5 mol) of sulphuryl chloride is added at 2 ° C for 33 min. Solving the solution for a further 15 minutes at 2–3 ° C, after which an additional 33.8 g (0.25 mol) of sulphurylchloride is added. The solution is allowed to warm up (1.5 hours) to room temperature and add it additionally for 1.5 hours at 22 ° C. . The solution is then concentrated in vacuo (approximately io mm Hg) for 30 minutes at 50 ° C, the low boiling fraction (255 toluene and acetyl chloride) is collected in a trap with dry ice. The residue, 194 g (100%) is not L% of 1 dichlorothiol phosphate, Sh 110, is fractionally yielded 174 g (90%) purified) dichloride phosphate, m.p. 40–50 ° C / 70.07–0.27 mm Hg. Art. Found,%: C 18.7-, H 3.63; C1 36.9 R 16.2; ZShch. ; i: - СзН, С120Р8 i :: /;, :: - Calculated,%: С 18.7; H 3.66; C1 36.7; ™ PT§: 0; 6. :. The low boiling fraction is distilled at atmospheric daytime, 57.5 g (73%) -acetyl chloride, t. Bale are obtained. 49-51 C. P | Example 2. To a stirred solution of 76.7 g (0.51 mol) of n-propyl disulfide in 200 g of dry toluene, 137.3 g (1.0 Mbhb) of phosphorus trichloride are added over 6 minutes. . 60.1 g (1.0 mol) of glacial acetic acid for 7 minutes are introduced into this solution and the solution is stirred for 2 hours at 2 ° C. Then a stream of gaseous chlorine is passed through at a rate of 71 g / h, maintaining temperature minus 5 - plus 8 ° С. After 55.4 g (0.78 mol) V of chlorine is added, the solution is allowed to warm to room temperature and is stripped, under vacuum (40 ° C, 15 min), to remove toluene and acetyl chloride. The residue (154.1 g) is subjected to fractional distillation; 130.6 g (72%) of SH-propyl dichlorothiol phosphate are obtained. Example 3 To a stirred solution of 75.2 g (0.5 mol) n-propyl disulfide in 200 g of dry toluene within 3 minutes 137.3 g (1.0 mol) of phosphorus trichloride at minus 3 - 0 ° С. Then, 74.1 g (1.0 mol) of protic acid is introduced over 4 min, followed by 83.5 g (0.6 mol) of hydrogen sulphuryl chloride at minus 5 - plus 5 ° C for 26 minutes. The solution is kept at 8 ° C for 2 hours and then concentrated in vacuo (40-45 ° C / / 20 mmHg). Volatile substances (305 g of toluene and propyl chloride) are collected in a dry ice trap. The residue was fractionally distilled to give 168 g (88%) of Sn-propyldichlorothiol phosphate. The low boiling fraction is distilled at RT pressure, yielding 67.6 g (74%) of propyl chloride. A. The process described in Example 3 is repeated, but the sulfuryl chloride is replaced with gaseous chlorine (60.7 g, 0.86 mol, 72% excess), but they do not make any attempt to isolate acetyl chloride. The yield of S-n-propyl-lethyl phosphate is 70%. The process described in Example 3 L is repeated, but 1.1 mol (10% excess) of phosphorus trichloride and 0.81 mol (60% excess) of chlorine are used. The yield of S-n-propyl dichlorothiol phosphate is 71%. The process described in Example 3A is repeated, but 1.1 mol (10% excess) of propionic acid is used. The yield of S-n-propyl dichlorothiol phosphate is 79%. The process described in Example 3A is repeated, but instead of toluene, 233 g of tetrachloride carbon are used. The yield of S-and-propyl dichlorothiol phosphate is 79%. Example 4. To a stirred solution of 75.2 g (0.5 mol) of n-propyl disulfide and 74.1 g (0.1 mol) of propionic acid in 200 ml of dry toluene, 69.5 tons (0, 5 mol) sulfuryl chloride a for 6 min. Then, over a period of 15 minutes, dropwise with stirring and with the introduction of 137.3 g (1.0 mol) of phosphorus trichloride. The solution is incubated for 2 hours at 0 ° C. Analysis by gas-liquid chromatography shows the completion of the reaction only by 97%, so an additional 3.5 g (0.025 mol) of sulfuryl chloride is added and the solution is then held at 0 ° C for 1.5 hours. The solution is concentrated in vacuo (40-70 ° C (25 mm from article), 187.4 g (98%) of S H-propyl-chlorothiol phosphate are obtained: The process described in Example 4 is repeated, but 52.2 g (0.736 mol) of chlorine is used instead of sulfuryl chloride. The yield of 8 - "- proximate chlorothiol phosphate is 175 3 g (91%). PRI me R 5. To a solution of 15.6 (0.1 mol) n-propyl disulfide and 27.5 g (0.2 mol) of phosphorus trichloride in 100 ml of carbon tetherchloride, a solution of 20.9 g ( 0.15 mol) sulfuryl chloride at 0 ° C for 10 min. Then, 12.0 g (0.2 mol) of glacial acetic acid are added dropwise with stirring and at 0-1 ° C for 15 minutes. The solvent and acetyl chloride are removed in vacuo to give 31.0 g (72%) of S-n-propyl dichlorothiol phosphate.
EXAMPLE 6 6.9 g (0.05 mol) of trichloride phosphorus are added to 3.75 g (0.025 mol of n-propyl disulfide at room temperature. Then 3.0 g (0.050 mol) of ice-cold is added dropwise acetic acid at room temperature followed by the addition of 7.8 g (0.038 mol) of pure sulfuryl chloride at room temperature. The acetyl chloride is removed in vacuo and the residue (7.8 g) is distilled, 6.8 g (70%) SH is obtained -propyl dichlorothiol phosphate. Example 7. To a solution of 15.3 g (0.102 mol / -propyl disulfide and 27.5 g (0.2 mol) of phosphorus trichloride in 47 ml of dry toluene was added 13.8 g (0.102 mol) sulfate of chloride at minus 2 - plus 2 C. Then 3.6 g (0.2 mol) of deionized water are introduced at a rate of 0.4 g / 3 min, maintaining the temperature minus 1 plus 6 ° C. After the addition is complete, the reaction mixture concentrated in vacuo. According to gas chromatography, the reaction mixture is a mixture of S-c-propyl dichlorothiol phosphate and y-procyl disulfide. EXAMPLE 8 To a cold (minus 15 ° C) solution of 12.2 g (0, 1 mol) of ethyl disulfide in 100 ml of carbon tetrachloride are added with stirring 13.8 g (0.1 mol) of sulfuryl chloride in 50 ml of carbon tetrachloride Eroda. The solution is allowed to warm to 0 ° C, and then it is added dropwise with stirring to a cold solution (0-3 ° C), 12.0 g (0.2 mol) of acetic acid and 27.6 g (0.2 mol) of phosphorus trichloride in 100 ml of uterine tetrachloride. After stirring overnight at room temperature, the solvent and acetyl chloride are removed in vacuo, the residue (36.3 g) is distilled (bp 43 C / O, 15 mm Hg, 33.6 g (94%) S are obtained) -ethyl dichlorothiol phosphate. Found,%: C 13.6; H 2.93. CjHsCbOPS. Calculated,%: C 13.4; H 2.81. Example 9. Preparation of g-isobutylDichlorothiol phosphate. To a cold solution (minus 15 ° С) 100 g (0.56 mol) of isobutyl disulfide in 300 ml of carbon tetrachloride are added with stirring 76 g (0.56 mol) of sulphurium chloride in 150 ml of carbon tetrachloride.

权利要求:
Claims (3)
[1]
the solution is allowed to warm to 25 ° C over 1.5 h after which it is added slowly with stirring to a cold (minus 6 ° C) solution of 137.3 g (1.12 mol) of phosphorus trichloride in 300 ml of carbon tetrachloride and leaving They stand overnight at room temperature. Then 69.2 g (1.12 mol) of glacial acetic acid are added dropwise with stirring and at minus 5 ° C. The solution is allowed to warm to room temperature. It is held there for 2 hours and then concentrated in vacuo to obtain 143.7 g of crude thiol phosphate as a yellow oil. By fractional distillation, 94.4 g (82% yield) of purified S-isobugyl dichloride Iolophosphate, t. Bale, was observed. 48-50 ° C / 0.2 mmHg Art. Example 10. To a stirred solution of 17.8 g (0.1 mol) of isobutyldisulfide in 50 ml of carbon tetrachloride, a solution of 27.46 g (0.2 mol) of phosphorus trichloride in 50 ml of carbon tetrachloride is added at 0-5 ° C, followed by adding a solution of 12.0 g (0.2 mol) of glacial acetic acid in 50 ml of carbon tetrachloride. Then, 16.5 g (0.12 mol) of sulfuryl chloride in 50 ml of carbon tetrachloride are introduced at 20 minutes. The solution is stirred overnight at room temperature, and then concentrated in vac), 41.6 g of crude S-isobut of lacto-lithiol phosphate are obtained. Purified S-isobutyldichlorothiol phosphate was isolated by fractional distillation, i.e. bale. 55- 5 7 С / 0.05 mm Hg. Art. Found,%: C 23.3; H 4.64. C4H9CI20PS Calculated,%: C 2.3.3; H 4.38. Analogously to Example 10, S-ogor-butyldichlorothiol phosphate and S-n-butyl dichlorothiol phosphate are obtained. S-ero / 5-Butyldichlorothiol phosphate boils at 51.5-56.5 ° С / 0.015 mm Hg. St. Found,%: C 23.9; H 4.70 C4H9CI2OPS Calculated,%: c 23.2; H 4.38 S-to-Butyldichlorothiol phosphate boils at 6467 ° C / 0, 2 mm Hg. Art. Found,%: C 23.6; H 4.52 C4H9CI20PS Calculated,%: C 23.2; H 4.38. Example 11. To a stirred solution of 76.0 g (1.0 mol) and propylmer katana in 300 ml of an oluol is added at minus 3 - plus 7 ° C 0.4 g (1.13 mol) of chlorine over 37 min Then 60.0 g (1.0 mol) of acetic acid are introduced in one portion at minus 3 ° C with the subsequent addition of 137.3 g (1.0 mol) of phosphorus chloride in a dropwise manner at minus 3 Luce 6 ° C for 1 hours. The solution is stirred for 1.5 hours at 12 ° C, and then dissolved; , 7,:, .7 are removed in vacuo, S-n-propyl dichlorothiol phosphate is obtained. EXAMPLE 12 To a stirred solution of 76.0 (1.0 mol) of n-propyl mercaptan. In 300 ml of toluene is added at minus 3 - plus 7 ° C, 148 g (1.1 mol) of sulfuryl chloride are added dropwise. m for 37 min. Then 74.1 g (1.0 mol of propioic acid in one portion at minus 3 ° C) are added, followed by addition of 137.3 g (1.0 mol) of phosphorus trichloride dropwise at 3 - plus 6 ° C for 1 h. The solution is stirred for 1.5 hours at 12 ° C, an additional amount (3.0 ml) of sulfuryl chloride is added, and then the solvent is removed in vacuo to give 176 g (92%) of S-n-propyl dichlorothiol phosphate. Example 13 ; To a stirred solution of 148 g (1.1 mol) of sulphuryl chloride in 250 ml of toluene, a solution of 76 g (1.0 mol) of n-propyl mercaptan in 60 ml of toluene is added dropwise within a bb for min. 74.1 g (1.0 mol) of nporaic acid is introduced in one portion, and then 137.6 g (1.0 mol) of phosphorus trichloride are added dropwise at 0-8 ° C. The reaction mixture is kept for 30 minutes at 9C5 add 1bt to 11Olnitelbium amount of sulfuryl chloride (4 g) to ensure completion of the reaction.The mixture is incubated for 1 hour at 15-30 ° Cj and concentrated in vacuo to obtain 179.7 g (93%) of Sn-propyl dichlorothiol phosphate. Example 14. O-ethyl-Z-yy-propylthiol phosphate. - To a stirred solution of 50.0 g (0.26 mol) of SH-propyldichlorothiol phosphate in 200 ml of a mixture of benzene and hexane (3: 1), a mixture of 11.9 g (0.26 mol) of ethanol and 26.2 g (0 , 26 mol) of triethylamine in 50 ml of benzene. During the addition of the reagents, the temperature is maintained at 0-5 ° C, and then the mixture is allowed to slowly warm to room temperature. After standing overnight, the mixture was filtered to remove triethylamine hydrochloride, passed through a short column of silicic acid (30 g), and concentrated in vacuo to give 41.5 g (79%) of O-ethyl-S-n-propyl chlorothiol phosphate, t. kip 58 ° C / 0.2 mmHg Art. Claims 1. Method for producing dichlorothiol phosphates of general formula ES-P. where I is lower alkyl of normal or isosteregg by reacting phosphorus trichloride with valkylsulfenyl chloride, characterized in that, in order to increase the yield of the target products, the product of the interaction of phosphorus trichloride with alkylsulfenyl chloride is treated with carboxylic acid or water and the process is carried out in organic solvent with minus 15 - plus 30 ° С.
[2]
2. A method according to claim 1, characterized in that acetic or propionic acid is used as the carboxylic acid.
[3]
3. Method according to paragraphs. 1 and 2, characterized by xeMj, an aromatic hydrocarbon or an aromatic or aliphatic halogen-substituted) hydrogen sulfide is used as an organic solvent. Sources of information taken into account in the examination 1. Houben-Weyl, Methoden der organischen Chemie-Stuttgart, 1964, Xil / 2, S. 597.

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同族专利:

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公开号 | 公开日

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BR7605392A|1977-08-16|

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EG12319A|1979-03-31|

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ATA620276A|1981-07-15|

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PL100056B1|1978-08-31|

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YU196776A|1982-05-31|

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IL50323D0|1976-10-31|

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AU1707276A|1978-03-02|

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IN145483B|1978-10-21|

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CH618984A5|1980-08-29|

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ES450868A1|1977-08-16|

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US4056581A|1977-11-01|

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DE2635931A1|1977-03-03|

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ZA764491B|1977-09-28|

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JPS5231033A|1977-03-09|

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IL50323A|1980-01-31|

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CA1064954A|1979-10-23|

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GB1552658A|1979-09-19|

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BE845223A|1977-02-16|

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NL7609143A|1977-02-24|

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DD127791A5|1977-10-12|

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FR2321501A1|1977-03-18|

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CS189784B2|1979-04-30|

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FR2321501B1|1981-08-21|

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AT366056B|1982-03-10|

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HU175412B|1980-07-28|

引用文献:

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US4468388A|1982-05-21|1984-08-28|Rohm And Haas Company|Pesticidal N-acyl phosphorodiamidothioates|

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US4727178A|1986-07-14|1988-02-23|Stauffer Chemical Co.|Process for preparing phosphorodichloridothiolate|

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US5081272A|1990-08-20|1992-01-14|Imperial Chemical Industries Plc|Process for preparation of phosphorodichlorothioates|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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US05/607,078|US4056581A|1975-08-22|1975-08-22|Process for the preparation of phosphorodichloridothiolates|

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